CN105896147A - Micro universal serial bus (USB) plugs and systems - Google Patents

Abstract

This invention describes a micro Universal Serial Bus (USB) port and system. In one aspect, a micro-USB plug includes a housing with faces forming a contained interior, one of the faces having an opening. The plug also includes a plurality of micro USB pins located in said opening, and furthermore, the plug includes a ground pin and a power pin located in the opening.

Description

Micro Universal Serial Bus (USB) Plugs and Systems

Cross References to Related Applications

This invention is related to US Design Patent Application 29/522,024, subject titled "Micro Universal Serial Bus (USB) Plug and System," the disclosure of which is hereby incorporated by reference in its entirety.

technical field

This disclosure relates to electrical connectors. More specifically, it relates to micro Universal Serial Bus (USB) plugs and systems.

Background technique

USB is a connector standard that defines cables, connectors, and communication protocols for bus connection, communication, and power supply between computing devices and electronic devices. Furthermore, USB is a serial interface that is commonly used to replace RS232 serial interfaces and parallel interfaces to connect peripheral peripherals (such as mice, keyboards, printers, etc.) with computers (such as desktops and laptops.) Many computers Both are equipped with multiple USB connectors, each designed to mate with a USB plug individually. A typical USB connector is configured with electrical contacts for combining with electrical contacts other than the USB connector, so as to realize data transmission and power supply functions. The electrical contacts on some USB connectors are used to combine the electrical contacts on the USB plug with the circuit on the USB connector, and the electrical contacts on some USB connectors are used to connect the circuit on the USB connector to the computer The conductive traces formed on the motherboard are bonded. The electrical traces on the motherboard route send electrical signals according to the circuit between the electrical circuit of the USB connector and the electrical circuit installed on the motherboard (Electrical traces on the motherboard route electrical signals between the electrical circuitry of the USB connector and electrical circuit mounted on the motherboard, such as, for example, a USB controller that is connected to a main processor of the computer), such as, for example, a USB controller that is connected to the main processor of the computer.

Micro USB plugs and ports, such as micro USB version 2 and micro USB version 3 plugs and ports, are smaller in size than other types of USB plug ports. In particular, a micro-USB is reduced in size by about 60% compared to the mini-USB, and is a next-generation specification of the mini-USB.

Micro USB plugs and ports come in a wide variety of sizes and shapes, and there are many different electronic and computing applications for USB technology. For at least these reasons, there is a need for continued improvement in the variety of shapes and sizes of micro-USB plug and port systems for different applications.

Description of drawings

The foregoing summary, and the following detailed description of various embodiments, are best understood when read in conjunction with the drawings provided herein. For the purpose of illustration and demonstration, the embodiments will be shown in the drawings, but the technical subject matter disclosed in this document is not limited to the specific technical methods and means mentioned in the document.

1 is a front perspective perspective view of an embodiment of a micro USB plug system disclosed herein;

Figure 2 is a rear perspective perspective view of the micro-USB plug system shown in Figure 1;

3 is a top view of the micro-USB plug system shown in FIG. 1;

Figure 4 is a front view of the micro-USB plug system shown in Figure 1;

Figure 5 is a bottom view of the micro USB plug system shown in Figure 1;

Figure 6 is a side view of the micro-USB plug system shown in Figure 1;

Figure 7 is a rear view of the micro-USB plug system shown in Figure 1;

Figure 8 is a top sectional view of the micro USB plug system shown in Figure 1;

9 is a front perspective perspective view of an embodiment of a micro USB plug system disclosed herein;

Figure 10 is a rear perspective perspective view of the micro USB plug system shown in Figure 9;

Figure 11 is a front view of the micro USB plug system shown in Figure 9;

Figure 12 is a bottom view of the micro USB plug system shown in Figure 9;

Figure 13 is a side view of the micro USB plug system shown in Figure 9;

Figure 14 is a rear view of the micro-USB plug system shown in Figure 9;

Figure 15 is a top cross-sectional view of the micro USB plug system shown in Figure 9;

16 is a rear perspective perspective view of an embodiment of the micro USB plug system disclosed herein;

Figure 17 is a front perspective perspective view of the micro USB plug system shown in Figure 16;

Figure 18 is a rear view of the micro-USB plug system shown in Figure 16;

Figure 19 is a top view of the micro USB plug system shown in Figure 16;

Figure 20 is a side view of the micro USB plug system shown in Figure 16;

Figure 21 is a front view of the micro USB plug system shown in Figure 16;

22 is a top cross-sectional view of the micro USB plug system shown in FIG. 16 .

Detailed description

The subject matter disclosed herein is described in terms of features to satisfy statutory requirements. However, the description itself is not intended to limit the protection scope of this patent document. Of course, developers have also planned that the subject matter of the present invention may be implemented in other ways, including steps different from or elements similar to those mentioned herein, and combining with other existing or future technologies. Furthermore, while "steps" herein may at one time mean different aspects of the method used, this term should not be read herein as limiting to a particular order or between steps, unless the context clearly states that each sequence of steps.

1-8 are schematic diagrams of different viewing angles of a USB plug system 100 according to an embodiment disclosed by the present invention. In particular, the figures show a micro-B USB version 2 plug system. Referring to Figures 1-8, the system 100 includes a housing 102 that includes multiple sides 104A-104F. The faces of the housing 102 together form an interior 800 . The housing 102 can be made of plastic or other rigid materials that can be understood and selected by those skilled in the art. In this embodiment, the housing 102 is in the shape of an elongated cube, however, it should be noted that the housing 102 can have any suitable shape according to different applications. Housing 102 may be suitably sealed to prevent moisture or contaminants from entering the interior formed by faces 104A-108F and shown in FIG. 8 , which also depicts a cross-sectional view of system 100 .

An opening 106 is formed in the face 104A of the housing 102 for mating with a micro USB connector, such as a mating micro USB plug. A slot 108 is located inside the housing 102 and extends inwardly from the opening 106 . Slot 106 is configured to interface with a micro USB version 2 connector. In an alternative embodiment, for example, the opening 106 and the slot 108 may be sized and shaped for mating with other mating connector types. The slot 108 may also feature a snap-fit feature to prevent docking with other non-micro USB version 3 devices.

A plurality of micro USB pins 110 are disposed in the slot 108 and are operatively connected to the USB version 2 connector. Alternatively, multiple pins may be configured for operative connection with any other micro USB version type connector. The pins 110 may include, but are not limited to, a V _CC pin, a transmit pin, and a receive pin. In addition, a ground pin 112 and a power pin 114. The ground pin 112 extends a little further from the interior than the power pin 114.

System 100 may include USB version 2 circuitry (not shown in the figure) within the interior of housing 102 . Circuitry may be operatively connected to pins 110 , 112 , and 114 . To electrically connect pins 110, 112, and 114, the circuit may include various wires and/or other suitable components.

A locking mechanism may be suitably attached to the housing 102 for contact retention and locking of the USB plug connector. In this embodiment, the locking mechanism may comprise part 116A and part 116B, which may be configured to mate with a locking mechanism on a USB plug system. Parts 116A and 116B may be pliable and resilient for mating locking with a USB plug connector as understood by those skilled in the art.

9-15 are different views of a micro-USB plug system 900 according to another embodiment disclosed in the present invention. In particular, Figures 9-15 illustrate the micro-B USB version 3 plug system. Referring to Figures 9-15, system 900 includes a housing 102 that includes multiple sides 104A-104F. The faces of the housing 102 together form an interior 800 . The housing 102 can be made of plastic or other rigid materials that can be understood and selected by those skilled in the art. In this embodiment, the housing 102 may have any suitable shape according to different applications. Housing 102 may be suitably sealed to prevent moisture or contaminants from entering the interior formed by faces 104A-108F and shown in FIG. 15 , which also shows a cross-sectional view of system 100 .

Opening 106 is formed in face 104A of housing 102 for mating with a micro USB connector, such as a mating micro USB version 3 plug. A slot 108 is located inside the housing 102 and extends inwardly from the opening 106 . Slot 106 is configured to interface with a micro USB version 3 connector. In another alternative embodiment, for example, the opening 106 and the slot 108 may be sized and shaped for mating with other mating connector types.

A plurality of micro USB pins 110 and 112 are disposed in slot 108 and are operably connected with the USB version 2 connector. The pin 110 can be configured to serve as a connector for USB3.0 components, eg, the pin 110 can include, but is not limited to, a pin, one pin, one pin, one pins, and a prongs. The pin 112 can be configured to serve as a USB2.0 connector. For example, the pin 112 can include, but is not limited to, a V _CC pin, a D- pin, a D+ pin, and a ground pin. Alternatively, multiple pins may be configured for operative connection with any other micro USB version type connector. Additionally, a ground pin 114 and a power pin 116 may be included. The ground pin 114 extends a little further from the interior than the power pin 116 .

The system 100 may include USB version 2 circuitry and USB version 3 circuitry (not shown in the figure) within the interior of the housing 102 . Circuitry may be operatively connected to pins 110, 112, 114, and 11,6. To electrically connect pins 110, 112, 114, and 116, the circuit may include various wires and/or other suitable components.

A locking mechanism may be suitably attached to the housing 102 to be configured for contact retention and locking of the USB plug connector. In this embodiment, the locking mechanism may comprise part 116A and part 116B, which may be configured to mate with a locking mechanism on a USB plug system. Parts 116A and 116B may be pliable and resilient for mating locking with a USB plug connector as understood by those skilled in the art.

16-22 are different views of a micro USB plug system 1600 according to another embodiment disclosed in the present invention. In particular, Figures 16-22 illustrate the micro-B USB version 3 plug system. Referring to Figures 16-22, system 1600 includes a housing 102 that includes multiple sides 104A-104F. As shown in FIG. 22 , the multiple faces of the housing 102 collectively form an interior 2200 . The housing 102 can be made of plastic or other rigid materials that can be understood and selected by those skilled in the art. In this embodiment, the housing 102 may have any suitable shape according to different applications. Housing 102 may be suitably sealed to prevent moisture or contaminants from entering the interior formed by faces 104A-108F and shown in FIG. 22 , which also shows a cross-sectional view of system 100 .

An opening 106A and an opening 106B are formed on the surface 104A of the housing 102, and the opening 106A and the opening 106B are used for docking with a micro USB connector. In particular, the opening 106A and the opening 106B can be matched with The micro USB version 2 plug and the micro USB version 3 plug are docked separately. Both the groove 108A and the groove 108B are located inside the housing 102 and extend inwardly from the opening 106A and the opening 106B respectively. Slot 106A is configured to interface with a micro USB version 2 connector. Slot 106B is configured to interface with a micro USB version 3 connector. In an alternative embodiment, for example, the opening 106 and the slot 108 may be shaped for mating with other mating connector types.

A plurality of micro USB pins 110 and 112 are disposed in slots 108A and 108B, respectively, and are operatively connected to a USB version 2 connector and a USB version 3 connector, respectively. The pin 110 and the pin 112 can be respectively configured to serve as a USB 2.0 component of a connector and a USB 3.0 component of a connector, for example, the pin 110 can include, but is not limited to, a ground, a D+ signal, a D- signal, and a V CC signal. Also, for example, pin 112 may include, but is not limited to, a StdA_SSTX- pin, a pin, one pin, one pins, and a prongs. Pin 112 can be configured as a USB 2.0 connector. Alternatively, these pins may be configured for operative connection with other micro USB version connectors.

System 1600 may include USB version 2 circuitry and USB version 3 circuitry (not shown) within the interior of housing 102 . Circuitry may be operatively connected to pin 110 and pin 112 . To electrically connect pins 110 and 112, the circuit may include various wires and/or other suitable components. In order to properly connect the pins to the wires in the wiring attached to the housing 102, the circuit may contain wires.

A locking mechanism may be suitably attached to the housing 102 to be configured for contact retention and locking of a mating USB connector. In this embodiment, the locking mechanism 1603 can be configured to contact with a matching locking mechanism on a USB connector, and the locking mechanism 1602 can be locked in order to dock with the USB connector as understood by those skilled in the art. It is flexible and elastic.

Slots 108 are formed in the openings 106A and 106B of the housing 102 and extend toward the inside. Slot 106 is used to interface with a micro USB version 2 connector. In one embodiment, for example, the openings 106A and 106B and the slot 108 may be sized and shaped for mating with other suitable types of connectors. The slot 108 may also have a position restriction function, so as to avoid docking with other non-micro USB devices.

Although specific embodiments are described herein, the disclosure of these embodiments is not intended to limit the scope of the subject matter disclosed herein. In fact, there are many other implementations of the novel methods, devices, and systems described herein. In addition, without departing from the gist of the subject matter disclosed in the present invention, there may be deletions, substitutions and modifications to the methods, devices and systems involved in the text. The appended claims and their equivalents are intended to cover all forms or modifications that fall within the scope of the subject matter disclosed herein.

Claims (20)

1. micro-USB (universal serial bus) (USB) plug, comprises:

One shell, described shell comprises the inside formed by multiple, and the opening formed on a face wherein；

Multiple micro-USB pins being positioned in described opening；

One grounding pin being positioned in described opening；With

One power pin being positioned in described opening.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, wherein: described shell is by plastic material Make.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, wherein: described micro-USB pin comprises one Individual VCC pin, a transmission pin, one receives pin, and a grounding pin.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, also comprises micro-USB version 2 circuit, institute State micro-USB version 2 circuit to be positioned in described inside, and be operatively connected with described micro-USB pin.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, also comprises micro-USB version 3 circuit, institute State micro-USB version 3 circuit to be positioned in described inside, and be operatively connected with described micro-USB pin.

One the most according to claim 5 micro-USB (universal serial bus) (USB) plug, wherein: described shell comprise one from Described opening extends the groove to described inside, and described groove includes micro-USB pin, grounding pin, and power pin.

One the most according to claim 6 micro-USB (universal serial bus) (USB) plug, wherein: described groove comprises a constraint Property feature, stop with non-micro-USB version 3 equipment interconnection.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, wherein: described micro-USB pin is configured For micro-B USB framework.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, wherein: described micro-USB pin is arranged In a row.

One the most according to claim 1 micro-USB (universal serial bus) (USB) plug, wherein: described grounding pin, described Power pin, and described micro-USB pin is aligned to a line.

11. one according to claim 10 micro-USB (universal serial bus) (USB) plug, wherein: described grounding pin is from institute State the distance internally extended more than described power pin from the described distance internally extended.

12. one according to claim 1 micro-USB (universal serial bus) (USB) plug, wherein: also comprise one and be attached to described Locking mechanism on shell, described locking mechanism is arranged to carry out USB device contacting maintenance and locking.

13. 1 kinds of micro-USB (universal serial bus) (USB) plug systems, comprise:

One shell, comprises the inside formed by multiple, is also included in the one side of the most described shell first formed Opening and the second opening；

First groove and the second groove, described first groove and described second groove are respectively from from described first opening and described second opening Extend, to internal, and be constructed to accept micro-USB version 2 plug and micro-USB version 3 plug respectively；

It is positioned in described first groove and for multiple first pins being operatively connected with described micro-USB version 2 plug；With

It is positioned in described second groove and for multiple second pins being operatively connected with described micro-USB version 3 plug.

14. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, wherein: described first pin Comprising a VCC pin, a transmission pin, one receives pin, and a grounding pin.

15. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, also comprises micro-USB version 2 electricity Road, described micro-USB version 2 circuit is positioned in described inside, and is operatively connected with described first pin.

16. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, also comprises micro-USB version 3 electricity Road, described micro-USB version 2 circuit is positioned in described inside, and is operatively connected with described second pin.

17. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, wherein: described first groove bag Containing a restrictive feature, stop and dock with non-micro-USB device.

18. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, wherein: described first pin It is configured to micro-B USB framework.

19. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, wherein: described first pin Comprise a grounding pin, a power pin, and by continuous arrangement micro-USB pin in a row.

20. one according to claim 13 micro-USB (universal serial bus) (USB) plug system, also comprises one and is attached to described Locking mechanism on shell, described locking mechanism is arranged to carry out USB device contacting maintenance and locking.